Electrode for secondary batteries



(N0 Mbdel.)

' A. V.'MESER0LE.

ELECTRODE EOE SECONDARY EATTEEIES.

Patented Aug. 13, 1889.

f w m IIIIII 2 mm {dew i M710.

N, PETERS. mumn hon Washington, In;

UNIT D STATES PATENT OFFICE.

ABRAHAM V. MESEROLE, OF NElV YORK, N. Y., ASSIGNOR OF ONE-HALF TO HENRY A. ILSON, OF RIDGEFIELD, NEIV JERSEY.

ELECTRODE FOR SECONDARY BATTERIES.

- SPECIFICATION forming part of Letters Patent No. 408,809, dated August 13, 1889.

Application filed May 27, 1889. Serial No. 312,203. (No model.)

To (M6 whom it may concern: which consists in constructing said plates of Be itknown that I, ABRAHAM V. MESEROLE, a plurality of strips united to theinner frame a citizen of the United States, residing at New and distanced from each other suitably to York, county of New York, and State of New provide openings for the passage and circu- 5 York, have invented certain new and useful lation of the electrolytic fluid, this construclmprovements in Electrodes for Secondary tion being in many cases preferred by rea- Batteries, fully described and represented in son of convenience and cheapness in manuthe following specification and the aceomfacture. panying drawings, forming a part of the The invention also consistsin a slightmodi- IO same. fication in the arrangement of the vertical This invention relates to improvements in ribs upon the inner frame, which will be herethe construction of electrodes for secondary inafter referred to. batteries, the improvements, as herein illus- In the accompanying drawings, Figure 1 is trated and as hereinafter described, being an elevation of the complete electrode, illus- 15 particularly applicable to the batteries of this trating particularly the construction of the general class which are known as Plant outer plates. Fig. 2 is an elevation of the batteries, in which the electrodes, composed same, partlyin section, one of the outer plates initially of lead or lead alloy or other inactive being removed to show more clearly the conmetal, are used without the addition of an struction of the inner frame. Fig. 3 is an 20 active material mechanically incorporated elevation illustrating a modification in the therewith, these electrodes being rendered construction of the outer plate, which will be electrically active orelectrically receptive by hereinafter described. Fig. 4 is a horizontal electrical and chemical treatment in any of section on the line 4 of Fig. 1. Fig. 5 is a the ways commonly practiced in the art. similar view illustrating a modification in the 25 It is the object of the present invention to construction of the inner frame, which will so construct an electrode of. this character be hereinafterreferred to. that a maximum degree of electrical strength Referring to said drawings, it will be unand resistance to distortion will be attained derstood that the electrode therein illustrated with a minimum quantity of metal and a is of composite form, composed mainly of a- 30 large surface area for electrical action propair of outer plates B and an inner frame A, vided in a relatively small volume, and to located within the plates B. The frame A, construct an electrode having these signal whichis of metallic lead or lead alley or other advantages, which shall in addition have the inactive material, is, as best shown in Figs. advantages of reliability and durability and 2 and 4:, of substantially rectangular form 3 5 convenience and cheapness in manufacture. preferably, having a plurality of vertically To these ends the invention consists of an arranged ribs to extending its entire length, electrode composed of an inner frame and and preferably, for convenience in manufacouter plates united rigidly, said frame being ture, arranged at right angles to the frame, provided with a series of vertically-arranged as shown. The frame A is also preferably 4o ribs forming spaces or recesses for containing provided with one or more ribs 17, extending thin strips or filaments of lead or lead alloy transversely of the ribs a, serving to give adarranged vertically therein, the electrical ditional rigidity and strength to the frame. strength and capacity of the electrode being It has been found preferable in practice to greatly increased by the addition of these construct the vertical ribs a of comparatively 5 45 filaments, and said outer plates being prothin metal and the transverse ribs 1) of comvided at suitable intervals with a series of paratively thick metal, sufficient strength openings for the free access to and circulaand rigidity being obtained by this construction about all parts of the electrode of the tion with a minimum quantity of metal. The electrolytic fluid. inner frame and outer plates A B are united 50 The invention further consists of a modirigidly by means of plugs c, of lead or lead fication in the construction of the outer plates, alloy, formed upon the ribs a b and the frame A and entering openings provided in the outer plates B, in which openings they are permanently secured by welding or melting their ends. By this method of uniting the two plates and frame of the electrode a perfect mechanical and electrical union is secured between the two.

To permit ready access of the electrolytic fluid to the surface of the inner frame A and the inner surface of the.outer plates 13, and to permit its free circulation about the ribs a, the outer plates are provided with a plurality of comparatively large openings (1, in line, preferably, with the recesses formed by the ribs a. This provision of the openings (1, in addition to rendering the interior surfaces of the plates B and of the frame A available for electrical action, also provides outlets for the escape of gas-bubbles formed in the spaces within the plates 13, formed by the ribs a of the frame A, during the process of formation and recharging.

It will be seen from the foregoing that in an electrode thus constructed a large surface is provided for electrical action within a relatively small volume, an electrode of this construction having a large electrical capacity and a correspondingly great degree of mechanical strength, at the same time being convenient and cheap to manufacture and having the advantages of reliability and durability.

To add still further to the capacity and electrical strength of the electrode without 1' ncreasing its dimensions and without materially increasing its weight, I provide the spaces between the ribs (L of the inner frame A with a number of filamcntsf or thin strips of metallic lead or lead alloy, preferably arranged vertically, as shown, which, being readily acted upon in the electrical formative treatment, add greatly to the electrical capacity and strength of the electrode. The filaments or strips f, though preferably arranged vertically and parallel to the ribs a of the inner frame A, may be arranged horizontally or in any other desired position.

Each electrode of the series used in a battery will be insulated from its adjacent electrode by means of insulating-pins arranged at suitable intervals upon the exterior surfaces of the outer plates B orin any other suitable manner. \Vith an electrode thus constructed its effectiveness is increased many fold over the effectiveness of an electrode having plane surfaces, the electrode thus constructed having in addition a mechanical construction effectually resisting distortion.

The filaments or strips f, of metallic lead, though in most cases desirable on account of the additional strength and capacity given to the elect-rode, may be omitted where such strength and capacity are not required or desirable.

Each of the plates B, instead of being eonstrueted in one piece, as heretofore described, may, as shown in Fig. 1, be made up of two or more sections united together and secured to the inner frame A, or, as shown in Fig. 3, be composed of a plurality of strips e, of metal, secured to the frame A by means of the plugs 0, formed upon said frame and at a short distance from each other. This construction in many cases, on account of its simplicity and convenience and cheapness in manufacture, will be preferred over that illustrated in Figs. 1, 2, and 4. The outer plates, when made up of these strips, perform the function of retaining the filaments f in position in the electrode, and by reason of their separation from each other, as described, provide for the access of the electrolytic fluid to the inner frame and its free circulation about all parts of the same, the openings (1 in the outer plates being in this case, of course, dispensed with.

The ribs a, instead of being arranged, as shown in Figs. 2 and 4, at right angles to the frame A, may be arranged at any other angle-for example, as shown in Fig. 5. It is also to be understood that the inner frame and outer plates may be united in any other suitable manner than that described-as, for example, by lapping their edges-though the manner described is preferable.

hat I claim is- 1. The herein-described composite electrode for secondary batteries, consisting of outer plates B, provided with openings (1, an inner frame A, having the ribs (1, and the filaments or strips f between said ribs, substantially as described.

2. The herein-described composite electrode for secondary batteries, consisting of an inner frame and outer plate or plates, the latter consisting of a plurality of strips of metal united to the inner frame and suitably distanced from each other to provide openings to the inner frame, substantially as described.

In testimony whereof I have hereunto set my hand in the presence of two subscribing witnesses.

ABRAHAM V. MESEROLE.

\Vitn esses:

J. J. KENNEDY, '1. II. PALMER. 

